Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2017
Authors: Ioan Rusu, Oana Rusu
Research on Using AlMg10-SiC Cellular Alloys for Fluids Filtering
Oana RUSU1,a, Ioan RUSU1,b
1Technical University “Gheorghe Asachi” of Iasi-Romania, Department of Materials Science
and Engineering, Blvd.
Mangeron, No. 59A, 700050, Iasi, Romania *aoana84rou@yahoo.com, bioan.rusu@tuiasi.ro Keywords: cellular composite materials, pores dimensions, fluids filtering Abstract.
The components of composite materials [2-4] were chosen to confer high thermo-mechanical and filtration properties to cellular materials [5]: - providing the possibility to use different types of filtering elements in terms of the used composite material (with different values for porosity, cell size, etc.) and different geometrical dimensions; - very long lifetime; - good mechanical, thermal and chemical resistance; - relatively wide temperature range for industrial use; - the filtering element can be washed/cleaned for reuse. 2.
We also perform some tests of superlight cellular materials in real operating conditions by making special bodies for these filters (figure 6), assembled in an installation which scheme is shown in figure 7.
Carcea, Stabilized Aluminium Foams, unique material for industrial applications, Journal of optoelectronics and advanced materials", Vol. 15 (7–8), (2013) 823–832 [7] O.
Mangeron, No. 59A, 700050, Iasi, Romania *aoana84rou@yahoo.com, bioan.rusu@tuiasi.ro Keywords: cellular composite materials, pores dimensions, fluids filtering Abstract.
The components of composite materials [2-4] were chosen to confer high thermo-mechanical and filtration properties to cellular materials [5]: - providing the possibility to use different types of filtering elements in terms of the used composite material (with different values for porosity, cell size, etc.) and different geometrical dimensions; - very long lifetime; - good mechanical, thermal and chemical resistance; - relatively wide temperature range for industrial use; - the filtering element can be washed/cleaned for reuse. 2.
We also perform some tests of superlight cellular materials in real operating conditions by making special bodies for these filters (figure 6), assembled in an installation which scheme is shown in figure 7.
Carcea, Stabilized Aluminium Foams, unique material for industrial applications, Journal of optoelectronics and advanced materials", Vol. 15 (7–8), (2013) 823–832 [7] O.
Online since: January 2012
Authors: Qing Long An, Zhi Qiang Liu, Ming Chen, Ying Ying Wei
Orthogonal tests are adopted in order to compare the cutting performance of the two materials.
We can see that the surface roughness of the two materials was worse at low cutting speed.
Fig. 3 Surface roughness of the two materials Tool Wear.
Through the contrast experiments, we observe the difference of machinability between the two materials.
Karnik: Journal of Materials Processing Technology, Vol. 205 (2008), p.16-23
We can see that the surface roughness of the two materials was worse at low cutting speed.
Fig. 3 Surface roughness of the two materials Tool Wear.
Through the contrast experiments, we observe the difference of machinability between the two materials.
Karnik: Journal of Materials Processing Technology, Vol. 205 (2008), p.16-23
Online since: July 2017
Authors: S.V. Kuz’min, V.I. Lysak, Evgeniy V. Kuz’min, Alexander P. Peev
This paper presents the results of the effect of ultrasound on explosion welded materials.
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, 21 (2012) 2375–2379
Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel, Journal of Materials Processing Technology. 195 (2008) 232–240
Kuzmin, Energy balance during explosive welding, Journal of Materials Processing Technology. 222 (2015) 356-364
Evolution of ideas, Journal of Materials Processing Technology. 212 (2012) 150-156
Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, 21 (2012) 2375–2379
Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel, Journal of Materials Processing Technology. 195 (2008) 232–240
Kuzmin, Energy balance during explosive welding, Journal of Materials Processing Technology. 222 (2015) 356-364
Evolution of ideas, Journal of Materials Processing Technology. 212 (2012) 150-156
Online since: June 2025
Authors: Joao Pedro Almeida Lopes, Hebert Luis Rossetto
Conventional waterproofing methods often rely on materials with significant environmental impacts.
In the search for sustainable alternatives, plant-based materials have garnered attention.
Construction and Building Materials, v. 30, p. 125-138, 2012
Construction and Building Materials, v. 101 (1), p. 80-90, 2015
Journal of the Korean Wood Science and Technology, v. 45 (6), p. 772-786, 2017
In the search for sustainable alternatives, plant-based materials have garnered attention.
Construction and Building Materials, v. 30, p. 125-138, 2012
Construction and Building Materials, v. 101 (1), p. 80-90, 2015
Journal of the Korean Wood Science and Technology, v. 45 (6), p. 772-786, 2017
Online since: July 2023
Authors: Maria Ulfa, Addy Rachmat, Muhammad Said, Poedji Loekitowati Hariani, Desnelli Desnelli
Peak and intensity of RGO material
D-band
G-band
2D-band
Materials
Raman Shift (cm-1)
Intensitas
(a.u.)
This proves that these two materials are not good adsorbents.
Nwoko, Green synthesis of reduced graphene oxide using orange extract for Ni2+ removal, Algerian Journal of Materials Chemistry. 4 (2021) 15─ 25
Firsov, Electric Field Effect in Atomically Thin Carbon Films, Journal of Science. 3 (2004) 306-310
Lin, Beyond the BET Analysis: the Surface Area Prediction of Nanoporous Materials Using a Machine Learning Method, The Journal of Physical Chemistry Letters. 8 (2020) 1-18
This proves that these two materials are not good adsorbents.
Nwoko, Green synthesis of reduced graphene oxide using orange extract for Ni2+ removal, Algerian Journal of Materials Chemistry. 4 (2021) 15─ 25
Firsov, Electric Field Effect in Atomically Thin Carbon Films, Journal of Science. 3 (2004) 306-310
Lin, Beyond the BET Analysis: the Surface Area Prediction of Nanoporous Materials Using a Machine Learning Method, The Journal of Physical Chemistry Letters. 8 (2020) 1-18
Online since: September 2013
Authors: Yong Bin Lai, Xiu Chen, Jia Min Hu, Lei Chen, Sen Li, Ling Ling Cai, Li Li, Xin Jin
Study on cold flow properties of typical materials biodiesel and its blends
Xiu Chen1,a,Jiamin Hu1,Lei Chen2,Sen Li3,Li Li1,Lingling Cai2,
Xin Jin1,YongbinLai4
1Schoolof Chemical Engineering, Anhui University of Science & Technology, Huainan, Anhui, 232001, China
2Schoolof Mechanical Engineering, Nantong University, Nantong, Jiangsu, 226019, China
3Hebei Chemical and Pharmaceutical College, Shijiazhuang, 050026, China
4Schoolof Mechanical Engineering, Anhui University of Science & Technology, Huainan, Anhui, 232001, China
achenxiuhn@163.com
Keywords:Biodiesel, Cold filter plugging point, Gas chromatograph-mass spectrometer
Abstract.The chemical compositions of biodiesel are analyzed by gas chromatograph-mass spectrometer (GC-MS), and theirs molecular structure are investigated on the basis of the hybrid orbital theory.
Experimental Materials.Petrodiesel: -10# petrodiesel (-10PD) was obtained from China Petroleum & Chemical Corporation.
Blending oils CFPP were much different that determined by different chemical compositions of biodiesel which made from different raw materials, such as blending oils that PME, CSME, WME, SBME, RME and PNME blended with -10PD respectively.
Wang: Journal of Chemical Industry and Engineering Vol.59(2008), P.106 (In Chinese) [2] U.
Liu: Journal of Chemical Industry and Engineering Vol. 58 (2007), P.233(In Chinese) [4] X.
Experimental Materials.Petrodiesel: -10# petrodiesel (-10PD) was obtained from China Petroleum & Chemical Corporation.
Blending oils CFPP were much different that determined by different chemical compositions of biodiesel which made from different raw materials, such as blending oils that PME, CSME, WME, SBME, RME and PNME blended with -10PD respectively.
Wang: Journal of Chemical Industry and Engineering Vol.59(2008), P.106 (In Chinese) [2] U.
Liu: Journal of Chemical Industry and Engineering Vol. 58 (2007), P.233(In Chinese) [4] X.
Online since: January 2022
Authors: Bouguettoucha Abdallah, Chebli Derradji, Aga Sarra, Djama Chaker, Amrane Abdeltif
Materials and Methods
Materials
A natural blend of Wild Carob and Cupressus sempervirens used in this research was obtained from a local source in El Eulma (Setif), Algeria.
Du, Transformation of cefazolin during chlorination process: Products, mechanism and genotoxicity assessment, Journal of Hazardous Materials. 262 (2013) 48–54
Önal, Kinetics of adsorption of dyes from aqueous solution using activated carbon prepared from waste apricot, Journal of Hazardous Materials. 137 (2006) 1719–1728
ŞİMŞEK, Removal of cationic dye in aquatic medium by using a new composite material, Cumhuriyet Science Journal. 39 (2018) 181–191
Sivakumar, Equilibrium and Modelling Studies for the Removal of Crystal Violet Dye from aqueous solution using eco-friendly activated carbon prepared from Sargassm wightii seaweeds, Journal of Materials and Environmental Sciences. 8 (2017) 1508–1517
Du, Transformation of cefazolin during chlorination process: Products, mechanism and genotoxicity assessment, Journal of Hazardous Materials. 262 (2013) 48–54
Önal, Kinetics of adsorption of dyes from aqueous solution using activated carbon prepared from waste apricot, Journal of Hazardous Materials. 137 (2006) 1719–1728
ŞİMŞEK, Removal of cationic dye in aquatic medium by using a new composite material, Cumhuriyet Science Journal. 39 (2018) 181–191
Sivakumar, Equilibrium and Modelling Studies for the Removal of Crystal Violet Dye from aqueous solution using eco-friendly activated carbon prepared from Sargassm wightii seaweeds, Journal of Materials and Environmental Sciences. 8 (2017) 1508–1517
Online since: August 2016
Authors: Cari Cari, Ahmad Marzuki, Mukhayyarotin Niswati Rodliyatul Jauhariyah
Erbium doped tellurite glasses are very interesting materials in the field of basic science and for several photonic applications [10].
All materials were prepared with high purity raw materials (99.99%).
To achieve homogeneity, the liquid materials shaked before poured.
Zainal, Optical properties of ternary tellurite glasses, Materials Science-Poland. 28 (2010) 173-180
Refractive index and optical properties, Journal of Optoelectronics and Advanced Materials. 6 (2004) 747-753
All materials were prepared with high purity raw materials (99.99%).
To achieve homogeneity, the liquid materials shaked before poured.
Zainal, Optical properties of ternary tellurite glasses, Materials Science-Poland. 28 (2010) 173-180
Refractive index and optical properties, Journal of Optoelectronics and Advanced Materials. 6 (2004) 747-753
Online since: May 2013
Authors: Zhen Hua Duan, Ju Lan Wang, Chang Yu Cheng, Yang Hai
Materials and methods
Materials.
References [1] J.S.Sim, G.J.Jun, T.Toida, S.Y.Cho: Journal of Chromatography B.
Mao, B.H.He: Food Science, Vol.30(2009),p.231 [9] H.Y.Luo: Food Science, Vol.25(2004),p.135 [10] Z.H.Duan, L.N.Jiang, J.L.Wang: Food and Bioproducts Processing, Vol.89 (2011), p.472 [11] Z.H.Duan, J.L.Wang,Y.Y.Wu, J.Peng,Y.Yang,Y.G.Pan:Advanced Materials Research, Vol.554-556(2012),p.1332 [12] W.K.Jung, P.J.Park, H.G.Byun, S.H.Moon: Food Chemsitry,Vol.91(2005),p.333 [13] Z.H.Duan, M.H.Yi: Fisheries Science & Technology Information, Vol.32(2005),p.250 [14] Y.P.Kotzamanis, M.N.
Fan, K.G.Zhou: Food science and technology, Vol.36(2011), p.213 [17] Z.D.Yu, G.M.Yang, H.Gao, K.Liu: Journal of Qinghai University (Natural Science Edition), Vol.23(2005), p.41(In Chinese) [18] Z.S.Qin,F.Q.Chang,H.X.Han,G.R.Chen: Chinese Journal of Health Laboratory Technology,Vol.12(2002), p.306(In Chinese) [19] J.C.Boulet,P.Williams,T.Doco: Carbohydrate Polymers, Vol.69(2007), p.79 [20] X.B.Fang, X.E.
Chen, H.Yu, R.Song:Journal of Chinese Institute of Food Science and Technology, Vol.9(2009), p.103(In Chinese) [21] S.G.Chen, C.H.Xue, L.A.Yin, Q.J.Tang, G.L.Yu, W.G.Chai:Carbohydrate Polymers, Vol.83(2011), p.688 [22] A.S.Amarasekara, G.Opoku, X.D.Qiu, V.
References [1] J.S.Sim, G.J.Jun, T.Toida, S.Y.Cho: Journal of Chromatography B.
Mao, B.H.He: Food Science, Vol.30(2009),p.231 [9] H.Y.Luo: Food Science, Vol.25(2004),p.135 [10] Z.H.Duan, L.N.Jiang, J.L.Wang: Food and Bioproducts Processing, Vol.89 (2011), p.472 [11] Z.H.Duan, J.L.Wang,Y.Y.Wu, J.Peng,Y.Yang,Y.G.Pan:Advanced Materials Research, Vol.554-556(2012),p.1332 [12] W.K.Jung, P.J.Park, H.G.Byun, S.H.Moon: Food Chemsitry,Vol.91(2005),p.333 [13] Z.H.Duan, M.H.Yi: Fisheries Science & Technology Information, Vol.32(2005),p.250 [14] Y.P.Kotzamanis, M.N.
Fan, K.G.Zhou: Food science and technology, Vol.36(2011), p.213 [17] Z.D.Yu, G.M.Yang, H.Gao, K.Liu: Journal of Qinghai University (Natural Science Edition), Vol.23(2005), p.41(In Chinese) [18] Z.S.Qin,F.Q.Chang,H.X.Han,G.R.Chen: Chinese Journal of Health Laboratory Technology,Vol.12(2002), p.306(In Chinese) [19] J.C.Boulet,P.Williams,T.Doco: Carbohydrate Polymers, Vol.69(2007), p.79 [20] X.B.Fang, X.E.
Chen, H.Yu, R.Song:Journal of Chinese Institute of Food Science and Technology, Vol.9(2009), p.103(In Chinese) [21] S.G.Chen, C.H.Xue, L.A.Yin, Q.J.Tang, G.L.Yu, W.G.Chai:Carbohydrate Polymers, Vol.83(2011), p.688 [22] A.S.Amarasekara, G.Opoku, X.D.Qiu, V.
Online since: December 2011
Authors: Jian Hui Qiu, Min Zhang, Eiichi Sakai, Rie Nobe, Makoto Kudo
Introduction
The application of polymer materials is widely expanded due to their advantages, e.g., law cost, lightweight, high strength and machinability, etc.
The amount of disposed oyster shells is approximately 200,000 ton per year in Japan [5], and the availabilities of waste oyster shells are researched such as water clarification [6,7] and composite materials [8-10].
Experimental Materials.
References [1] K.Okubo, T.Fujii and N.Yamashita, JSME International Journal Series A: 48(2005), p. 199 [2] H.Takagi and R.Takura: Journal of the Society of Materials Science, 52(2003), p. 357 [3] L.Qin, J.Qiu, M.Liu, S.Ding, L.Shao, S.Lu, G.Zhang, Y.Zhao and X.Fu: Chemical Engineering Journal, 166(2011), p. 772 [4] M.S.Huda, A..K.Mohanty, L.T.drzal, E.Schut and M.Misra: Journal of Material Science, 40(2005), p. 4221 [5] M.Demura: Monthly review of agriculture, forestry and fishery finance The Norin kinyu, 57(2004), p. 666 [6] M.Torii: Fisheries Engineering, 44(2008), p. 205 [7] H.Kwon, C.Lee, B.
Jun, J.Yun, S.Weon and B.Koopman: Resources, Conservation and Recycling, 41(2004), p. 75 [8] M.Kitagawa, P.Li, F.Maejima and W.Mizuno: Journal of the Society of Materials Science, 51(2002), p. 943 [9] K.Fujita, T.Torii, M.Shibata, A.Hirahara and K.Murakami: Journal of the Japan Research Association for Textile End-Uses, 46(2005), p. 297 [10] H.Kani, T.Yamagami, M.Yoshida, T.Uchiyama, N.Nagano and H.Minoshima: Reports of the Hokkaido Industrial Research Institute, No. 303(2004), p. 75
The amount of disposed oyster shells is approximately 200,000 ton per year in Japan [5], and the availabilities of waste oyster shells are researched such as water clarification [6,7] and composite materials [8-10].
Experimental Materials.
References [1] K.Okubo, T.Fujii and N.Yamashita, JSME International Journal Series A: 48(2005), p. 199 [2] H.Takagi and R.Takura: Journal of the Society of Materials Science, 52(2003), p. 357 [3] L.Qin, J.Qiu, M.Liu, S.Ding, L.Shao, S.Lu, G.Zhang, Y.Zhao and X.Fu: Chemical Engineering Journal, 166(2011), p. 772 [4] M.S.Huda, A..K.Mohanty, L.T.drzal, E.Schut and M.Misra: Journal of Material Science, 40(2005), p. 4221 [5] M.Demura: Monthly review of agriculture, forestry and fishery finance The Norin kinyu, 57(2004), p. 666 [6] M.Torii: Fisheries Engineering, 44(2008), p. 205 [7] H.Kwon, C.Lee, B.
Jun, J.Yun, S.Weon and B.Koopman: Resources, Conservation and Recycling, 41(2004), p. 75 [8] M.Kitagawa, P.Li, F.Maejima and W.Mizuno: Journal of the Society of Materials Science, 51(2002), p. 943 [9] K.Fujita, T.Torii, M.Shibata, A.Hirahara and K.Murakami: Journal of the Japan Research Association for Textile End-Uses, 46(2005), p. 297 [10] H.Kani, T.Yamagami, M.Yoshida, T.Uchiyama, N.Nagano and H.Minoshima: Reports of the Hokkaido Industrial Research Institute, No. 303(2004), p. 75